高血糖通过抑制胰岛素信号传导减弱核因子κB受体激活剂配体诱导的巨噬细胞活化。
Hyperglycemia attenuates receptor activator of NF-κB ligand-induced macrophage activation by suppressing insulin signaling.
作者信息
Kurihara Chitaru, Tanaka Teruyoshi, Yamanouchi Dai
机构信息
Division of Vascular Surgery, Department of Surgery, University of Wisconsin School of Medicine and Public Health, Wisconsin Institute for Medical Research, Madison, Wisconsin.
Division of Vascular Surgery, Department of Surgery, University of Wisconsin School of Medicine and Public Health, Wisconsin Institute for Medical Research, Madison, Wisconsin.
出版信息
J Surg Res. 2017 Jun 15;214:168-175. doi: 10.1016/j.jss.2017.02.009. Epub 2017 Feb 22.
BACKGROUND
Although male gender, aging, hypertension, dyslipidemia, and smoking are common risk factors for abdominal aortic aneurysm, diabetes mellitus is an independent negative risk factor. In aneurysm tissue, matrix metalloproteinases (MMPs) expressed by activated macrophages degrades extracellular matrix proteins. In our previous experimental study, we demonstrated that the aneurysmal formation and macrophage activity were suppressed by inhibiting mimicking hyperglycemia (HG) through upregulation of glucose-sensing nuclear receptor, Nr1h2. Here in this study, we focused on the role of HG-induced altered glucose uptake on macrophage activation.
METHODS
RAW264.7 murine macrophage cells were pretreated in cultures containing HG (HG group, 15.5 mM) or normal glucose (NG) concentrations (NG group, 5.5 mM) for 7 d. The culture medium was then changed in both groups to NG conditions, and the cells were stimulated with recombinant murine soluble receptor activator of NF-κB ligand (sRANKL). Macrophage activation was confirmed by tartrate-resistant acid phosphatase (TRAP) staining.
RESULTS
Compared with the NG group, MMP-9 expression in the HG group was significantly suppressed. Glucose uptake was increased in the NG group but not in the HG group during macrophage activation. To determine the mechanism of activation, we studied the expression and distribution of glucose transporters (Gluts) in the macrophages. Although Glut expression was unaffected by glucose pretreatment, membrane translocation of Glut-1 was significantly enhanced in macrophages in the NG group but not in the HG group during activation. Insulin receptor and insulin receptor substrate-1 (IRS-1) messenger RNA, known stimulate to membrane translocation of Gluts, were both decreased by the HG condition but not by the NG condition.
CONCLUSIONS
HG pretreatment suppressed the macrophage activation. sRANKL increased macrophage glucose uptake at NG concentrations, which was impaired by HG pretreatment through the inhibition of Glut1 membrane translocation and the insulin receptor and IRS-1 gene transcription. These data suggest that HG suppressed macrophage activation, through attenuation of glucose uptake via the suppression of the membrane translocation of Glut1 and insulin signaling.
背景
虽然男性、衰老、高血压、血脂异常和吸烟是腹主动脉瘤常见的危险因素,但糖尿病是一个独立的负性危险因素。在动脉瘤组织中,活化巨噬细胞表达的基质金属蛋白酶(MMPs)可降解细胞外基质蛋白。在我们之前的实验研究中,我们证明通过上调葡萄糖感应核受体Nr1h2抑制模拟高血糖(HG)可抑制动脉瘤形成和巨噬细胞活性。在本研究中,我们重点关注HG诱导的葡萄糖摄取改变对巨噬细胞活化的作用。
方法
将RAW264.7小鼠巨噬细胞在含有HG(HG组,15.5 mM)或正常葡萄糖(NG)浓度(NG组,5.5 mM)的培养基中预处理7天。然后将两组培养基都更换为NG条件,并用重组小鼠可溶性核因子κB受体活化因子配体(sRANKL)刺激细胞。通过抗酒石酸酸性磷酸酶(TRAP)染色确认巨噬细胞活化。
结果
与NG组相比,HG组中MMP-9的表达明显受到抑制。巨噬细胞活化期间,NG组的葡萄糖摄取增加,而HG组未增加。为了确定活化机制,我们研究了巨噬细胞中葡萄糖转运蛋白(Gluts)的表达和分布。虽然Glut表达不受葡萄糖预处理的影响,但在活化过程中,NG组巨噬细胞中Glut-1的膜转位显著增强,而HG组未增强。已知可刺激Gluts膜转位的胰岛素受体和胰岛素受体底物-1(IRS-1)信使核糖核酸在HG条件下均降低,但在NG条件下未降低。
结论
HG预处理抑制巨噬细胞活化。sRANKL在NG浓度下可增加巨噬细胞葡萄糖摄取,而HG预处理通过抑制Glut1膜转位以及胰岛素受体和IRS-1基因转录损害了这一过程。这些数据表明,HG通过抑制Glut1膜转位和胰岛素信号传导来减弱葡萄糖摄取,从而抑制巨噬细胞活化。
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